Shape memory alloy enhanced bi-stable actuator

What is claimed is: 1. A shape memory alloy actuator comprising: a bistable shape memory alloy strip comprising a plurality of openings, the bistable shape memory alloy strip being configured to have a straight stable state and a curled stable state; and a shape memory alloy wire located along a side of the bistable shape memory alloy strip, the shape memory alloy wire being configured to: contract from heat exposure; and have each end secured to one of the plurality of openings of the bistable shape memory alloy strip. 2. The shape memory alloy actuator of claim 1 , further configured to: transform from a straight state to a coiled state due to heat exposure; and transform from the coiled state to the straight state due to a lack of heat exposure. 3. The shape memory alloy actuator of claim 1 , wherein ends of the shape memory alloy wire are secured to the plurality of openings of the bistable shape memory alloy strip via clamps, bolts, adhesive, welding, screws, or nails. 4. The shape memory alloy actuator of claim 1 , wherein the bistable shape memory alloy strip comprises nickel titanium alloy in a range of 40-60%. 5. The shape memory alloy actuator of claim 1 , wherein the shape memory alloy wire contracts from heat exposure in a range of 4-8%. 6. The shape memory alloy actuator of claim 1 , wherein heat is provided by body heat, warm air, or a heating element. 7. The shape memory alloy actuator of claim 1 , wherein the shape memory alloy wire comprises (i) silver-cadmium, (ii) gold-cadmium, (iii) cobalt-nickel-aluminum, (iv) cobalt-nickel-gallium, (v) copper-aluminum-beryllium and at least one of zirconium, boron, chromium, or gadolinium, (vi) copper-aluminum-nickel, (vii) copper-aluminum-nickel-hafnium, (viii) copper-tin, (ix) copper-zinc, (x) copper-zinc and at least one of silicon, aluminum, or tin, (xi) iron-manganese-silicon, (xii) iron-platinum, (xiii) manganese-copper, (xiv) nickel-iron-gallium (xv) nickel-titanium, (xvi) nickel-titanium-hafnium, (xvii) nickel-titanium-palladium, (xviii) nickel-manganese-gallium, (xix) titanium-niobium, or any combination thereof. 8. The shape memory alloy actuator of claim 1 , further comprising a heating element wherein the bistable shape memory alloy strip is located between the heating element and the shape memory alloy wire. 9. The shape memory alloy actuator of claim 1 , wherein the shape memory alloy wire is a coil configured to contract upon from heat exposure. 10. The shape memory alloy actuator of claim 1 further comprising a plurality of shape memory alloy wires. 11. A bed comprising the shape memory alloy actuator of claim 1 , wherein the shape memory alloy actuator is configured to raise a portion of the bed based upon contact with body heat from a person lying in the bed.